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W1603944953 startingPage "281" @default.
W1603944953 abstract "This chapter discusses the experimental approaches that have been used to assess the function of two component transcriptional regulation systems following the discovery of a new response regulator or kinase gene. Bacteria possess extensive signal transduction networks that function to regulate transcription. These systems are composed of modular domains that interact with one another to process information and effect appropriate responses to changing environmental conditions. Two superfamilies of signal transduction proteins are involved: protein kinases that autophosphorylate themselves at specific histidine residues, and response regulators that use these phosphoryl groups as well as phosphoryl groups from small molecule phosphodonors such as acetyl phosphate to autophosphorylate themselves at a specific aspartate residue. Generally, phosphorylation of the response regulator receiver domain is critical for activity of an associated DNA binding-transcriptional regulation domain. The regulatory circuitry that controls the level of phosphorylation of a given response regulator can be quite complex. Histidine kinases clearly play a central role in this process, both by supplying phosphoryl groups and in some cases by facilitating the removal of these groups. The sensory mechanisms that control histidine kinase activity are, however, poorly understood." @default.
W1603944953 created "2016-06-24" @default.
W1603944953 creator A5002694453 @default.
W1603944953 creator A5090299931 @default.
W1603944953 date "1996-01-01" @default.
W1603944953 modified "2023-09-26" @default.
W1603944953 title "[24] Analysis of two-component signal transduction systems involved in transcriptional regulation" @default.
W1603944953 cites W1014197125 @default.
W1603944953 cites W121421765 @default.
W1603944953 cites W137211258 @default.
W1603944953 cites W1483663613 @default.
W1603944953 cites W1490078221 @default.
W1603944953 cites W1495526149 @default.
W1603944953 cites W1500022475 @default.
W1603944953 cites W1505319357 @default.
W1603944953 cites W1508019479 @default.
W1603944953 cites W1520565605 @default.
W1603944953 cites W15435812 @default.
W1603944953 cites W1551452913 @default.
W1603944953 cites W1557653113 @default.
W1603944953 cites W1558751910 @default.
W1603944953 cites W1562004984 @default.
W1603944953 cites W1564947621 @default.
W1603944953 cites W1568194448 @default.
W1603944953 cites W1571849040 @default.
W1603944953 cites W1585201466 @default.
W1603944953 cites W1589203341 @default.
W1603944953 cites W1593897888 @default.
W1603944953 cites W1597180760 @default.
W1603944953 cites W1600523041 @default.
W1603944953 cites W1608839286 @default.
W1603944953 cites W1628177336 @default.
W1603944953 cites W1641804620 @default.
W1603944953 cites W1746820157 @default.
W1603944953 cites W1837003372 @default.
W1603944953 cites W1837682829 @default.
W1603944953 cites W1858893212 @default.
W1603944953 cites W1868181475 @default.
W1603944953 cites W1966944263 @default.
W1603944953 cites W1967494222 @default.
W1603944953 cites W1970881542 @default.
W1603944953 cites W1971085025 @default.
W1603944953 cites W1980065233 @default.
W1603944953 cites W1984095952 @default.
W1603944953 cites W1986390063 @default.
W1603944953 cites W1991038330 @default.
W1603944953 cites W1992917986 @default.
W1603944953 cites W1994146253 @default.
W1603944953 cites W1996283160 @default.
W1603944953 cites W1996628759 @default.
W1603944953 cites W1997196594 @default.
W1603944953 cites W2001410958 @default.
W1603944953 cites W2004907308 @default.
W1603944953 cites W2008940139 @default.
W1603944953 cites W2012155816 @default.
W1603944953 cites W2013456325 @default.
W1603944953 cites W2020657021 @default.
W1603944953 cites W2024573387 @default.
W1603944953 cites W2036997253 @default.
W1603944953 cites W2041797655 @default.
W1603944953 cites W2046032824 @default.
W1603944953 cites W2048767131 @default.
W1603944953 cites W2051830305 @default.
W1603944953 cites W2054649327 @default.
W1603944953 cites W2057785907 @default.
W1603944953 cites W2061918336 @default.
W1603944953 cites W2080349370 @default.
W1603944953 cites W2080384080 @default.
W1603944953 cites W2081672415 @default.
W1603944953 cites W2083547241 @default.
W1603944953 cites W2087680489 @default.
W1603944953 cites W2090672353 @default.
W1603944953 cites W2108141139 @default.
W1603944953 cites W2108949591 @default.
W1603944953 cites W2119091856 @default.
W1603944953 cites W2122962962 @default.
W1603944953 cites W2126984698 @default.
W1603944953 cites W2132534840 @default.
W1603944953 cites W2133596202 @default.
W1603944953 cites W2169041986 @default.
W1603944953 cites W223306453 @default.
W1603944953 cites W4240346636 @default.
W1603944953 cites W4245067683 @default.
W1603944953 cites W4250602387 @default.
W1603944953 cites W4251103021 @default.
W1603944953 doi "https://doi.org/10.1016/s0076-6879(96)73026-4" @default.
W1603944953 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/8791619" @default.
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